DE1574759B2 - Magnetic core memory with common write and read lines - Google Patents

Description

1 2

The invention relates to a magnetic core F i g. 2 the circuit diagram of the threshold value switching memory with a common write and read line, lines of the magnetic core memory according to FIG. 1. which are connected to both a write amplifier and to the in FIG. 1 schematically shown Magneteinen Sense amplifier is coupled. The core memory has a number of magnetic cores 12

Such known magnetic core memories have the 5, which are arranged in columns and rows of Disadvantage that it forms the direct connection between each column of a memory. Everyone see read and write amplifiers, over which the magnetic cores 12 has two perpendicular to each other Interfering signals and in particular the noise of the arranged openings on which a non-destructive The write amplifier can get into the read amplifier unhindered reading the stored digital information, even during a read cycle. io possible.

As a result, the magnetic cores 12 are arranged in rows 11 in these known magnetic cores

store the signal-to-noise ratio for the out of which each row the same bit one read signal relatively bad. Number of words is assigned. Through the upper

The object of the invention is to provide an opening in each magnetic core 12 in a row 11 Magnetic core memory of the type described above so 15 a line 13 passed through to the Einzu improve that during the reading process disturbance feed of write pulses is used in row 11, signals from the write pulse driver stage are not supplied by a write amplifier 14, more can get into the sense amplifier and then via a threshold value circuit 18 to both by improving the signal-to-noise ratio of the read signal. Ends of the line 13 is connected. The administration

According to the invention, the object is thereby achieved with a read amplifier 16 for triggers that connected between the output terminals of the read operations. An interrogation amplifier 15 Write amplifier and the common write and supplies query currents for the while reading Read line one or two threshold circuits lower openings of the elements 12. are arranged. With the invention, there is an in-operation of the magnetic core memory

penetration of noise voltages on the lines of 25 Fig. 1 takes place both the writing and the Write amplifier prevented in the sense amplifier. Reading out information into or from the EIe-other put the threshold circuits elements 12 of the rows 11 via the line 13. The no significant hinder write amplifier 14 delivers during writing nis. Write pulses through the threshold circuit 18

In a preferred embodiment, the invention 30 supplies on line 13. While reading In contrast, line 13 pulses to the reading amplifier are used as a threshold value circuit at least on the line 13 first end of the write and read line two ker 16, which respond to interrogation signals from the elements Diodes with opposite polarity are connected and 12 of series 11 are supplied. While reading it is the anode of a diode via a switch it is used for an improved signal to noise ratio of the reading the positive output of the write amplifier 35 signal very useful to prevent that any connectable, while the cathode of the other diode which signals the line 13 from the write over reach a switch to the negative output of amplifier 14. Therefore, the threshold write amplifier works is connectable. In addition, the value circuit 18 is such that the write amplifier 14 The anode of one diode is continuously decoupled via a resistor to a fully negative bias potential from the line 13 during the reading processes, and the cathode of the 40 is continuously decoupled.

other diode via a resistor to a positive Fig. 2 shows a schematic diagram with individual

Bias potential connected. Any units of the threshold value circuit 18 of the magnet complex control arrangements are therefore for the core memory according to FIG. 1. As can be seen, the is the this decoupling is not necessary. Magnetic cores 12 of a row 11 continuous lines

This threshold circuit has the special 45 tion 13 at both ends with the read amplifier advantage that it is connected to the writing of information ker 16, and it is also the one on the write and read line both positive and end α of the line 13 with the connections of positive also allows negative pulses because it contains two opposite and negative polarity of the write amplifier 14 via sensible diodes, which connect the path to the write and part of the threshold value circuit 18, opens the read line in both current directions. In spite of the two opposite polarity connected parallel to one another at the end α of the suffering device 13, a complete decoupling line 21 and 22 is contained during the read cycle by the arrangement 13 according to the invention.

development between the write amplifier and the read The anode of the diode facing away from the line 13

Amplifier achieved, because then the diodes are blocked due to the voltage 21 is applied via a current-limiting resistor 31, which strongly bias these 55 and a switch 33 with the positive terminal diodes in the reverse direction. This of the write amplifier 14 connected, while the blocking occurs automatically when the cathode of the diode 22 of the write amplifier facing away from the output of the line 13 does not receive any pulses on the lines containing the threshold value via a current-limiting resistor 34 and circuit Connection of the give, the free ends of these lines 60 write amplifier 14 is located. The other end b which are therefore potential-free. Line 13 is correspondingly via opposite

Further details and configurations of the reverse polarity diodes 26 and 27 as well as switches 37 and 38 with the invention can be found in the following description. The cathode of the diode 27 and the anode of the embodiment shown in more detail 65 Diode 26 are located together at the end b of the Leischschrift and is explained. It shows device 13. The diodes 21, 22, 26 and 27 of the threshold

F i g. 1 shows the schematic representation of a magnetic value circuit 18 in the reverse direction with a pre-core memory according to the invention, applied voltage potential that prevents

current flows through the diodes during the reading process. In order to generate this blocking bias voltage, a B - potential is applied to the anode of the diode 21 via a resistor 23, a B + potential to the cathode of the diode 22 via a resistor 24, and a B + potential to the cathode of the diode 22 via a resistor 28 The cathode of the diode 26 and a B potential via a resistor 29 to the anode of the diode 27. The ends α and b of the line 13 are bridged by resistors 41 and 42, the center of which is connected to earth and which, together with the resistors 23 and 24 or 28 and 29 ensure that the desired preload is maintained. During the write operations, the pulses of the write amplifier 14 are sufficiently high to overcome the blocking potential at the diodes.

If, when operating the arrangement according to FIG. 2 information of positive polarity is written into a row 11 during the writing phase, a positive pulse is running, the strength of which is sufficient to overcome the negative potential at the anode of the diode 21 and the positive potential at the cathode of the diode 27 from the write amplifier 14 Via the switch 33, the diode 21 to the end 13 α of the line 13 and, after it has passed through the row 12, from the end 13 b via the diode 26 and the switch 37 back to the ground connection of the write amplifier 14. In the same way, a Impulse of negative polarity, the strength of which is sufficient to overcome the B + potential at the cathode of the diode, from the negative terminal of the write amplifier 14 via the switch 35, the cathode-anode section of the diode 22 and the end 13 α of the line 13 through the Core row 12 to the end 13 b of the line. B from the end 13 of the pulse then passes over the cathode-anode path of the diode 27 and the switch 38 to the ground terminal of the write amplifier 14. The pulse has a sufficient strength and on the other to the B-potential anode of the diode to overcome 27th During reading, the write amplifier does not emit any pulses or interference signals whose strength is sufficient to overcome the blocking potential at the diodes. In this way, the described threshold value circuit achieves a positive decoupling effect which prevents any stray and, in particular, noise signals from reaching the line 13 from the write amplifier. When reading, therefore, the signals on line 13 consist exclusively of the pulses that are caused by a change in the flux of force in magnetic cores 12 of row 11 and that are processed by read amplifier 16.

The threshold value circuit provided according to the invention, which is produced by a simple diode circuit can be realized leads to a positive decoupling, which prevents any stray signals in the line 13 during the read processes and thus in the read amplifier can enter. The signal-to-noise ratio or the signal-to-noise ratio of the reading signal is therefore greatly improved, so that a reliable reading of pulses of low strength is possible.

Claims (4)

Patent claims: 1. Magnetic core memory with a common read and write line that is connected to both a Write amplifier and is coupled to a read amplifier, characterized in that that between the output terminals of the write amplifier (14) and the common Write and read line (13) one or two threshold value circuits (18) are arranged. 2. Magnetic core memory according to claim 1, characterized in that at least at a first end (a) of the write and read line (13) two diodes (21 and 22) are connected with opposite polarity and the anode of one diode (21) via a Switch (33) can be connected to the positive output of the write amplifier (14), while the cathode of the other diode (22) can be connected to the negative output of the write amplifier via a switch (35), and the anode of one diode (21 ) is connected to a negative bias potential via a resistor (23) and the cathode of the other diode (22) is connected to a positive bias potential via a resistor (24). 3. Magnetic core memory according to claim 1 or 2, characterized in that two diodes (26 and 27) with opposite polarity are connected to the second end (b) of the write and read line (13) and the cathode of one diode (26) Can be connected to ground via a switch (37) and the anode of the other diode (27) via a switch (38), that also the cathode of one diode (26) via a resistor (28) to a negative bias potential and the anode of the other diode (27) is applied to a negative bias potential via a resistor (29) and that the switches (33 and 37 or 35 and 38), each of the two diodes (21 and 26 and 22 and 27) are assigned, are always closed or open at the same time. 4. Magnetic core memory according to one of the preceding claims, characterized in that in the connection between the diodes (21 and 22) connected to the first end (a) of the write and read line (13) and the associated switches (33 and 35) each a current limiting resistor (31 or 34) is switched on. 1 sheet of drawings COPY